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International Journal of Phytoremediation Volume 12, 2010 - Issue 7
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Original Articles

The Use of Chloro-Complexation to Enhance Cadmium Uptake by Zea mays and Brassica juncea: Testing a “Free Ion Activity Model” and Implications For Phytoremediation

Ulrico J. López-Chuken Division of Agricultural & Environmental Sciences, School of Biosciences, The University of Nottingham, United Kingdom; Division of Environmental Sciences, School of Chemistry, Universidad Autónoma de Nuevo León, Mèxico
,
Scott D. Young Division of Agricultural & Environmental Sciences, School of Biosciences, The University of Nottingham, United Kingdom
&
Mónica N. Sánchez-González Division of Biotechnology, School of Chemistry, Universidad Autónoma de Nuevo León, Mèxico
Pages 680-696 | Published online: 24 Jun 2010

REFERENCES

  • Allison , J D and Brown , D S . 1995 . “ MINTEQA2/PRODEFA2—A Geochemical Speciation Model and Interactive Preprocessor ” . Chemical Equilibrium and Reaction Models, SSSA, No. 42 Edited by: Loeppert , R H , Schwab , A P and Goldberg , S . 241 – 252 . Madison, WI : American Society of Agronomy .
  • Baker , A JM . 1981 . Accumulators and excluders-strategies in the response of plants to heavy metals . J Plant Nutr. , 3 : 643 – 654 .
  • Berkelaar , E and Hale , B A . 2003 . Accumulation of cadmium by durum wheat roots: Bases for citrate mediated exceptions to the free ion model . Environ Toxicol Chem. , 22 : 1155 – 1161 .
  • Bingham , F T , Sposito , G and Strong , J E . 1984 . The effect of chloride on the availability of cadmium . J Environ Qual. , 13 : 71 – 74 .
  • Chaney , R L , Angle , J S , McIntosh , M S , Reeves , R D , Li , Y-M , Brewer , E P , Chen , K-Y , Roseberg , R J , Perner , H , Synkowski , E C , Broad , C L , Wang , S and Baker , A JM . 2005 . Using hyperaccumulator plants to phytoextract soil Ni and Cd . Z. Naturforsch C , 60 : 190 – 198 .
  • Clark , R B . 2001 . “ Marine Pollution ” . In , 5th ed , 109 – 112 . Oxford : Oxford University Press .
  • Collins , R N , Merrington , G , McLaughlin , M J and Knudsen , C . 2002 . Uptake of intact zinc-ethylenediaminetetraacetic acid from soil is dependent on plant species and complex concentration . Environ Toxicol Chem. , 21 : 1940 – 1945 .
  • Datta , A , Sanyal , S K and Saha , S . 2010 . A study of natural and synthetic humic acids and their complexing ability towards cadmium . Plant Soil. , 235 : 115 – 125 .
  • Datta , S P and Young , S D . 2005 . Predicting metal uptake and risk to the human food chain from leaf vegetables grown on soils amended by long-term application of sewage sludge . Water Air Soil Poll. , 163 : 119 – 136 .
  • Ellwood , N TW , Albertano , P , Galvez , R , Funiciello , R and Mosello , R . 2009 . Water chemistry and trophic evaluation of Lake Albano (Central Italy): a four year water monitoring study . J Limnol. , 68 : 288 – 303 .
  • Flowers , T J . 2004 . Improving crop salt tolerance . J Exp Bot , 55 : 307 – 319 .
  • Garcia-Mirayaga , J and Page , A L . 1976 . Influence of ionic strength and inorganic complex formation on the sorption of trace amounts of Cd by montmorillonite . Soil Sci Soc Am J. , 40 : 658 – 663 .
  • Ghnaya , T , Slama , I , Messedi , D , Grignon , C , Ghorbel , M H and Abdelly , C . 2007 . Cd-induced growth reduction in the halophyte Sesuvium portulacastrum is significantly improved by NaCl . J Plant Res. , 120 : 309 – 316 .
  • Gustafsson , J P . 2009 . “ Visual MINTEQ version 2.61 [Online] ” . Stockholm : Department of Land and Water Resources Engineering, KTH (Royal Institute of Technology) . http://www.lwr.kth.se/English/OurSoftware/vminteq/ accessed 22 July 2009
  • Hamon , R E , Holm , P E , Lorenz , S E , McGrath , S P and Christensen , T H . 1999 . Metal uptake by plants from sludge-amended soils: caution in required in the plateau interpretation . Plant Soil. , 16 : 53 – 64 .
  • Helal , H M , Upenov , A and Issa , G J . 1999 . Growth and uptake of Cd and Zn by Leucaena leucocephala in reclaimed soils as affected by NaCl salinity . J Plant Nutr Soil Sci. , 162 : 589 – 592 .
  • Hough , R L , Tye , A M , Crout , N MJ , McGrath , S P , Zhang , H and Young , S D . 2005 . Evaluating a ‘free ion activity model’ applied to metal uptake by Lolium perenne L. grown in contaminated soils . Plant Soil. , 270 : 1 – 12 .
  • Kadukova , J , Manousaki , E and Kalogerakis , N . 2008 . Pb and Cd accumulation and phyto-excretion by salt cedar (Tamarix smyrnensis Bunge) . Int J Phytorem , 10 : 31 – 46 .
  • Khoshgoftar , A H , Shariatmadari , H , Karimian , N , Kalbasi , M , van der Zee , S EATM and Parker , D R . 2004 . Salinity and zinc application effects on phytoavailability of cadmium and zinc . Soil Sci Soc Am J. , 68 : 1885 – 1889 .
  • Komárek , M , Tlustoš , P , Száková , J and Chrastny , V . 2007 . The role of chloride salts in chemically enhanced phytoextraction of heavy metals from a contaminated agricultural soil . Bull Environ Contam Toxicol. , 78 : 176 – 180 .
  • López-Chuken , U J and Young , S D . 2005 . Plant screening of halophyte species for cadmium phytoremediation . Z Naturforsch C. , 60 : 236 – 243 .
  • López-Chuken , U J and Young , S D . 2010 . Modelling sulphate-enhanced cadmium uptake by Zea mays from nutrient solution under conditions of constant free Cd2+ ion activity . J Environ Sci. , 22 : 1080 – 1085 .
  • López-Chuken , U J , Young , S D and Guzmán-Mar , J L . 2010 . Evaluating a ‘Biotic Ligand Model’ applied to chloride-enhanced cd uptake by Brassica juncea from nutrient solution at constant Cd2 + activity . Environ Technol. , 31 : 307 – 318 .
  • Manousaki , E , Kadukova , J , Papadantonakis , N and Kalogerakis , N . 2008 . Phytoextraction and phytoexcretion of Cd by the leaves of Tamarix smyrnensis growing on contaminated non-saline and saline soils . Environ Res. , 106 : 326 – 332 .
  • McBride , M B . 2003 . Toxic metals in sewage sludge-amended soils: has promotion of beneficial use discounted the risks? . Adv Environ Res. , 8 : 5 – 19 .
  • McLaughlin , M J , Andrew , S J , Smart , M K and Smolders , E . 1998a . Effects of sulfate on cadmium uptake by Swiss chard: I Effects of complexation and calcium competition in nutrient solutions . Plant Soil. , 202 : 211 – 216 .
  • McLaughlin , M J , Lambrechts , R M , Smolders , E and Smart , M K . 1998b . Effects of sulphate on cadmium uptake by Swiss chard: II Effects due to sulfate addition to soil . Plant Soil. , 202 : 217 – 222 .
  • McLaughlin , M J , Tiller , K G and Smart , M K . 1997 . Speciation of cadmium in soil solutions of saline/sodic soils and relationships with cadmium concentrations in potato tubers (Solanum tuberosum L.) . Aust J Soil Res. , 35 : 183 – 198 .
  • Mühling , K H and Läuchli , A . 2003 . Interaction of NaCl and Cd stress on compartmentation pattern of cations, antioxidant enzymes and proteins in leaves of two wheat genotypes differing in salt tolerance . Plant Soil. , 253 : 219 – 231 .
  • Nolan , A L , Lombi , E and McLaughlin , M J . 2003 . Metal Bioaccumulation and Toxicity in Soils—Why Bother with speciation? . Aust J Chem. , 56 : 77 – 91 .
  • Norvell , W A , Wu , J , Hopkins , D G and Welch , R M . 2000 . Association of cadmium in Durum wheat grain with soil chloride and chelate-extractable soil cadmium . Soil Sci Soc Am J. , 64 : 2162 – 2168 .
  • Ozkutlu , F , Ozturk , L , Erdem , H , McLaughlin , M J and Cakmak , I . 2007 . Leaf-applied sodium chloride promotes cadmium accumulation in durum wheat grain . Plant Soil. , 290 : 323 – 331 .
  • Parker , D R , Norvell , W A and Chaney , R L . 1995 . “ GEOCHEM-PC: A chemical speciation program for IBM and compatible personal computers ” . Soil chemical equilibria and reaction models, Vol. 42 Edited by: Lippert , R H . 253 – 269 . Madison, WI : SSSA Special Publication .
  • Parker , D R , Pedler , J F , Ahnstrom , Z AS and Resketo , M . 2001 . Reevaluating the free-ion activity model of trace metal toxicity toward higher plants: Experimental evidence with copper and zinc . Environ Toxicol Chem. , 20 : 899 – 906 .
  • Qadir , M , Ghafoor , A and Murtaza , G . 2001 . Use of saline-sodic waters through phytoremediation of calcareous saline-sodic soils . Agr Water Manage. , 50 : 197 – 210 .
  • Renner , R . 2000 . Sewage Sludge, Pros & Cons . Environ Sci Technol. , 34 : 430 – 435 .
  • Shannon , M C and Grieve , C M . 1999 . Tolerance of vegetable crops to salinity . Sci Hortic , 78 : 5 – 38 .
  • Silberbush , M and Ben-Asher , J . 2001 . Simulation study of nutrient uptake by plants from soilless cultures as affected by salinity buildup and transpiration . Plant Soil. , 233 : 59 – 69 .
  • Smolders , E , Lambregts , R M , McLaughlin , M J and Tiller , K G . 1998 . Effect of soil solution chloride on cadmium availability to Swiss chard . J Environ Qual. , 27 : 426 – 431 .
  • Smolders , E and McLaughlin , M J . 1996a . Effect of Cl on Cd uptake by Swiss chard in nutrient solution . Plant Soil. , 179 : 57 – 64 .
  • Smolders , E and McLaughlin , M J . 1996b . Chloride increases Cd uptake in Swiss chard in a resin-buffered nutrient solution . Soil Sci Soc Am J. , 60 : 1443 – 1447 .
  • Smýkalová , I and Zámečníková , B . 2003 . The relationship between salinity and cadmium stress in barley . Biol Plantarum. , 46 : 269 – 273 .
  • Tipping , E . 1994 . WHAM-A chemical equilibrium model and computer code for waters, sediments, and soils incorporating a discrete site/electrostatic model of ion-binding by humic substances . Comput Geosci. , 20 : 973 – 1023 .
  • Tipping , E , Rey-Castro , C , Bryan , S E and Hamilton-Taylor , J . 2002 . Al(III) and Fe(III) binding by humic substances in freshwaters, and implications for trace metal speciation . Geochim Cosmochim Ac. , 66 : 3211 – 3224 .
  • Tye , A M , Young , S D , Crout , N MJ , Zhang , H , Preston , S , Barbosa-Jefferson , V L , Davison , W , McGrath , S P , Paton , G I , Kilham , K and Resende , L . 2003 . Predicting the activity of Cd2+ and Zn2+ in soil pore water from the radio-labile metal fraction . Geochim Cosmochim Ac , 67 : 375 – 385 .
  • Wang , D and Shannon , M C . 1999 . Emergence and seedling growth of soybean cultivars and maturity groups under salinity . Plant Soil. , 214 : 117 – 124 .
  • Weggler-Beaton , K , McLaughlin , M J and Graham , R D . 2000 . Salinity increases cadmium uptake by wheat and Swiss chard from soil amended with biosolids . Aust J Soil Res. , 38 : 37 – 45 .
  • Zhao , F J , Lombi , E and McGrath , S P . 2003 . Assessing the potential for zinc and cadmium phytoremediation with the hyperaccumulator Thlaspi caerulescens . Plant Soil. , 249 : 37 – 43 .

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